Toyota jidosha kabushiki kaisha (20240123852). INFORMATION PROCESSING METHOD simplified abstract
Contents
- 1 INFORMATION PROCESSING METHOD
INFORMATION PROCESSING METHOD
Organization Name
toyota jidosha kabushiki kaisha
Inventor(s)
Kazuyuki Inoue of Nagoya-shi (JP)
Jean-Sebastien Boire of Yokohama-shi (JP)
Kiyonori Yoshida of Toyota-shi (JP)
Ai Miyata of Hirakata-shi (JP)
Yuki Tatsumoto of Seto-shi (JP)
INFORMATION PROCESSING METHOD - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240123852 titled 'INFORMATION PROCESSING METHOD
Simplified Explanation
The information processing method described in the abstract involves identifying a vehicle capable of supplying electric power generated by a fuel cell and controlling the electrical energy to be supplied based on the amount of hydrogen remaining in the vehicle and the distance to the next hydrogen station.
- Identifying a vehicle capable of supplying electric power generated by a fuel cell
- Controlling electrical energy based on the amount of hydrogen remaining in the vehicle and the distance to the next hydrogen station
Potential Applications
This technology could be applied in the automotive industry for vehicles powered by fuel cells, as well as in the development of smart energy management systems for efficient power distribution.
Problems Solved
1. Efficient utilization of electric power generated by fuel cells in vehicles. 2. Optimizing energy supply based on the availability of hydrogen and distance to refueling stations.
Benefits
1. Reduced energy wastage and improved energy management. 2. Increased convenience for vehicle owners by ensuring optimal power supply based on fuel availability.
Potential Commercial Applications
"Smart Energy Management Systems for Fuel Cell Vehicles"
Possible Prior Art
One possible prior art could be the development of energy management systems for electric vehicles, which optimize power usage based on battery levels and charging station availability.
What are the potential environmental impacts of implementing this technology?
Implementing this technology could lead to a reduction in greenhouse gas emissions and air pollution, as fuel cell vehicles are cleaner alternatives to traditional gasoline-powered vehicles. By efficiently managing energy usage and promoting the use of hydrogen fuel, this technology could contribute to a more sustainable transportation sector.
How does this technology compare to existing solutions in terms of cost-effectiveness?
This technology offers a cost-effective solution for managing electric power in fuel cell vehicles, as it optimizes energy usage based on real-time data on hydrogen availability and distance to refueling stations. By ensuring efficient power distribution, this technology can help reduce operational costs for vehicle owners and promote the adoption of clean energy solutions.
Original Abstract Submitted
an information processing method by an information processing apparatus, the information processing method includes identifying a first vehicle capable of supplying electric power generated by a fuel cell to the outside, and controlling electrical energy to be supplied to the outside according to the amount of hydrogen remaining in the first vehicle and a distance to the next hydrogen station.
